CN210819815U - Ring-shaped conveying device of sponge flat cutting machine - Google Patents

Abstract

The utility model discloses an annular conveying device of a sponge truncation machine, which has the technical scheme that the device comprises a workbench, a frame and a cutter, and also comprises a moving component and a conveying mechanism which are respectively arranged on the frame; the conveying mechanism comprises a left arc-shaped frame assembly, a right arc-shaped frame assembly and a middle frame assembly, a space is arranged between the right arc-shaped frame assembly and the workbench, and the middle frame assembly is arranged above the workbench; the rack is provided with a plurality of abutting components; the sponge is conveyed to the workbench through the moving assembly, the cutting knife cuts the cut sponge, the cut sponge enters the left arc-shaped frame assembly, the left arc-shaped frame assembly and the abutting assembly drive the sponge to move to the middle frame assembly, the middle frame assembly and the abutting assembly drive the sponge to enter the right arc-shaped frame assembly, the right arc-shaped frame assembly and the abutting assembly redrive the sponge to move, the sponge moves to the workbench again, the cutting knife cuts again, the sponge is circularly and repeatedly cut, the sponge is circularly cut, the mode that workers manually move the sponge is replaced, and the working efficiency is improved.

Description

Ring-shaped conveying device of sponge flat cutting machine

Technical Field

The utility model relates to a sponge cutting equipment, more specifically say, it relates to a sponge truncation machine's cyclic annular conveyor.

Background

The sponge is a porous material with good water absorption, and is made of wood cellulose fiber or foamed plastic polymer. In the production of sponges, the sponge is usually produced in one piece and cut into sheets with a sponge slitter.

Chinese patent No. CN207256347U discloses a sponge track horizontal cutting machine, which comprises two parallel guide rails arranged on the ground, two guide pillars arranged in the frame of the guide rails in a sliding manner and close to the vertical arrangement of the guide rails and located on the frame, wherein a guide sleeve is arranged on the guide pillars, a knife rest is fixedly connected to the guide sleeve, a cutter is horizontally arranged in the knife rest, the frame is rotatably connected with a vertical screw rod, a nut is sleeved on the screw rod and fixedly connected with the guide sleeve, and a second driving motor for driving the screw rod to rotate is arranged on the frame. The utility model has the advantages of it is following and effect: the new mechanical structure of this scheme utilization adopts driving motor to drive the lead screw and rotates, and the lead screw rotates and makes the nut on the lead screw remove along the lead screw, and the nut drives the knife rest and slides from top to bottom along the guide pillar, and cutter terrain clearance in the knife rest changes, has reached the effect of cutting out different thickness sponge layers, in addition, establishes in the lead screw outside with flexible pipe box, absorbs vibrations for the sponge layer surface of cutting out is more level and more smooth.

When using the truncation machine among the prior art, utilize the cutter will wait to cut into the slice sponge and become the slice, but in actual production, the mill will wait to cut into the slice sponge many times and become the slice, need the manual sponge after will cutting of workman to put back the slicer cutting once more this moment, waste time and energy, wait to improve.

SUMMERY OF THE UTILITY MODEL

To the deficiencies of the prior art, an object of the utility model is to provide an annular conveyor of sponge truncation machine.

The above object of the present invention can be achieved by the following technical solutions:

an annular conveying device of a sponge truncation machine comprises a rack, a workbench and a cutter which are respectively arranged on the rack, and also comprises a moving component and a conveying mechanism, wherein the moving component and the conveying mechanism are respectively arranged on the rack and are used for conveying sponge to be sliced to the workbench;

the conveying mechanism comprises a left arc-shaped frame assembly, a right arc-shaped frame assembly and a middle frame assembly, the left arc-shaped frame assembly and the right arc-shaped frame assembly are respectively arranged on two sides of the workbench, a space for sponge to be sliced to enter the workbench is arranged between the right arc-shaped frame assembly and the workbench, and the middle frame assembly is arranged above the workbench;

the supporting and fastening assembly is used for extruding and conveying the sponge to be sliced and is arranged on the rack, and the supporting and fastening assembly is located on the left arc-shaped frame assembly, the right arc-shaped frame assembly and the middle frame assembly and is close to one side of the workbench.

Through adopting above-mentioned technical scheme, when cutting the area section sponge, utilize the removal subassembly to carry the sponge to the workstation on, utilize the cutter to take the section sponge cutting, the sponge after the cutting shifts out and gets into left arc frame subassembly after the workstation on, left arc frame subassembly with support tight subassembly drive sponge and remove to middle frame subassembly, middle frame subassembly with support tight subassembly drive sponge and get into right arc frame subassembly on, right arc frame subassembly with support tight subassembly redrive sponge and remove, the sponge removes again to the workstation on, the cutter cuts again, can circulate to reciprocate with this, thereby can circulate the cutting to the sponge, replace workman's manual removal sponge, reduce workman's work burden, and work efficiency is improved.

Further, the removal subassembly is in including setting up the removal frame in the frame, setting removal motor on the removal frame, the removal axle of being connected with the motor shaft of removal motor, setting are in remove action wheel on the axle lateral wall and the drive roll of being connected with the removal axle, it is equipped with a plurality of driven voller to rotate on the removal frame, be equipped with on the lateral wall of driven voller from the driving wheel, the action wheel with pass through the belt from the driving wheel and connect.

Through adopting above-mentioned technical scheme, when carrying the sponge, utilize the removal motor to drive in proper order and remove axle, action wheel, drive roll, belt and follow the rotation of driving wheel to this can carry the sponge smoothly.

Further, left side arc frame subassembly is in including setting up left arc frame, the setting of workstation one side are in conveying motor on the left side arc frame, the transport axle of being connected with conveying motor's motor shaft, setting are in carry driving pulley and setting on the lateral wall of axle to be in carry epaxial driving shaft on the lateral wall, be equipped with a plurality of driven shaft, a plurality of on the left side arc frame the driven shaft is followed the profile direction equipartition of left arc frame, be equipped with driven pulley on the lateral wall of driven shaft, driving pulley passes through the conveying hold-in range with driven pulley and is connected.

Through adopting above-mentioned technical scheme, after the cutter is sliced the sponge, remove to left arc frame along the workstation on, utilize conveying motor to drive in proper order and carry axle, driving pulley, driving shaft, driven pulley and carry the hold-in range and rotate to can drive on the sponge gets into middle frame, help carrying out cyclic motion and can carry out the cutting once more with the sponge.

Furthermore, the middle frame assembly comprises a middle frame arranged on the rack, a transfer motor arranged on the middle frame, a transfer shaft arranged on the side wall of a motor shaft of the transfer motor, a driving belt pulley arranged on the side wall of the transfer shaft and a driving roller shaft arranged on the side wall of the transfer shaft, wherein the rack is provided with a plurality of driven roller shafts, the side wall of each driven roller shaft is provided with a driven belt pulley, and the driving belt pulley is connected with the driven belt pulley through a conveying belt.

Through adopting above-mentioned technical scheme, on the sponge moved to middle frame along left arc frame, utilize and transfer the motor and drive removal axle, drive pulley, drive roll axle, driven roller axle, driven pulley and conveyor belt in proper order and rotate, help carrying out cyclic motion and can carry out the cutting once more with the sponge.

Further, right side arc frame subassembly is including setting up right arc frame in the frame, setting are in conveying motor, setting on the arc frame of the right side are in conveying axle, setting on the motor shaft lateral wall of conveying motor are in driving gear and setting on the conveying axle lateral wall are in initiative transfer roller on the driving gear lateral wall, be equipped with the driven transfer roller of a plurality of on the arc frame of the right side, a plurality of driven transfer roller is followed the profile direction equipartition of right arc frame, be equipped with driven gear on the lateral wall of driven transfer roller, driving gear and driven gear pass through the conveying hold-in range and connect.

Through adopting above-mentioned technical scheme, when the sponge removed to right arc frame along middle frame on, utilize conveying motor to drive conveying axle, driving gear, initiative transfer roller, conveying hold-in range, driven gear and driven transfer roller in proper order and rotate to this can be smoothly carry the sponge to the workstation on, thereby can cut the sponge once more, replace workman manual transport, alleviate workman work burden, improve work efficiency.

Further, the abutting assembly comprises an abutting motor, an abutting roller and two abutting cylinders used for pushing the abutting motor and the abutting roller to move to one side of the sponge, the abutting cylinders are arranged on the rack, supporting blocks are arranged on end walls of piston rods of the abutting cylinders, two ends of the abutting roller penetrate through the two supporting blocks respectively, the abutting roller is rotatably connected with the supporting blocks, the abutting roller is arranged along the width direction of the workbench, and the abutting motor is coaxially connected with the abutting roller.

By adopting the technical scheme, the tight-contacting motor is utilized to drive the tight-contacting roller to rotate, so that the sponge can be tightly contacted on the left arc frame, the middle frame and the right arc frame, and the possibility that the sponge falls off from the left arc frame, the middle frame and the right arc frame is reduced;

because the thickness of the cut sponge can be changed, the tight-supporting cylinder is utilized to push the tight-supporting motor and the tight-supporting roller to move, so that the sponge-cutting machine can adapt to the sponges with different thicknesses, and smoothly supports the sponges with different thicknesses tightly on the left arc frame, the middle frame and the right arc frame.

Further, one side that middle frame was kept away from to right arc frame rotates and is equipped with lets the position frame, let on the position frame and rotate along its profile direction equipartition and be equipped with a plurality of conveying roller, be equipped with hoist motor in the frame, be equipped with the dwang on hoist motor's the motor shaft lateral wall, hoist motor is located the top of workstation, around being equipped with wire rope on the lateral wall of dwang, wire rope keeps away from the one end of dwang and puts down the position and be connected.

Through adopting above-mentioned technical scheme, when the thickness of sponge is greater than the height in space, at this moment, utilize the hoist motor drive dwang to rotate, drive wire rope and rotate to can will let the mount rotate, increase the height in space, let the sponge pass through smoothly, with this sponge that can adapt to different thickness, increase conveyor's application scope.

Furthermore, the movable frame is positioned above the workbench, an inclined frame is rotatably arranged on one side of the movable frame close to the workbench, a pushing cylinder is rotatably arranged on the rack and arranged along the height direction of the rack, and a piston rod of the pushing cylinder is rotatably connected with one side of the inclined frame far away from the movable frame;

the sponge supporting device is characterized in that one side of the workbench, which is close to the rotating frame, is provided with a supporting frame for supporting sponge in a rotating mode, a plurality of conveying rollers are arranged on the supporting frame and the inclined frame in a rotating mode, a lifting frame motor is arranged on the rack, a rotating shaft is arranged on a motor shaft of the lifting frame motor, a rope is wound on the side wall of the rotating shaft, and one end of the rope, which is far away from the rotating shaft, is connected with the supporting frame.

Through adopting above-mentioned technical scheme, owing to remove the frame and place subaerial, can occupy a large amount of area at this moment, so will remove the frame and install between middle frame and workstation, will remove the frame and raise the back, when needing the sponge, utilize the promotion cylinder to promote the rotating turret and rotate, and simultaneously, it rotates to rise a motor drive axis of rotation, roll up the rope, thereby will accept a frame and rotate, accept a frame and accept the sponge, through the difference in height of sponge, thereby the sponge can be along the sloping frame with accept a frame landing to preparing the cutting on the workstation, thereby be favorable to practicing thrift the area, the efficiency of space utilization is improved.

To sum up, the utility model discloses following beneficial effect has:

1. the sponge with the slices is conveyed to the workbench by the conveying mechanism, the sponge with the slices is cut by the cutter, after the sponge is sliced, the sponge is driven by the left arc-shaped frame assembly to move to the middle frame assembly, the sponge is driven by the middle frame assembly to move to the right arc-shaped frame assembly, the sponge is conveyed to the workbench by the right arc-shaped frame assembly, and meanwhile, the sponge is tightly pressed on the left arc-shaped frame assembly, the middle frame assembly and the right arc-shaped frame assembly by the pressing assembly, so that the sponge can be circularly cut, the sponge is replaced by manually carrying the sponge by workers, the workload of the workers is reduced, and the;

2. the hoisting motor is utilized to drive the rotating rod to rotate, the steel wire rope is wound up, and the position-giving frame is driven to rotate, so that the height of a space can be increased, and sponges with different thicknesses can conveniently enter the workbench;

3. utilize pushing cylinder to promote the slope frame slope, rise a motor drive axis of rotation and rotate, will accept the frame and rotate, the sponge removes to the slope frame along the carriage and accepts on the frame to this can remove the frame and rise, reduces device area, improves space utilization efficiency.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment.

FIG. 2 is a schematic structural diagram of a wheel in an embodiment.

Fig. 3 is a schematic structural diagram of a moving assembly in an embodiment.

FIG. 4 is a schematic view of a left arc frame assembly embodying an embodiment.

Fig. 5 is a schematic structural view of an intermediate shelf assembly in an embodiment.

FIG. 6 is a schematic view of a right arc frame assembly embodying an embodiment.

Fig. 7 is a schematic structural diagram of a holding assembly in an embodiment.

FIG. 8 is a schematic structural diagram of the rack, the receiving rack and the tilting rack in the embodiment.

In the figure: 1. a frame; 2. a work table; 20. a transfer roller; 21. a transmission wheel; 22. a conveyor belt; 23. a transmission motor; 3. a cutter; 30. a rotating wheel; 31. a second driving motor; 4. a moving assembly; 40. a movable frame; 41. a moving motor; 42. a movable shaft; 43. a driving wheel; 44. a drive roll; 45. a driven roller; 46. a driven wheel; 47. a belt; 48. an inclined frame; 49. a push cylinder; 400. a receiving frame; 401. a frame lifting motor; 402. a rotating shaft; 403. a rope; 404. a driving roller; 405. a lifting group; 5. a conveying mechanism; 6. a left arc frame assembly; 60. a tension wheel; 61. a left arc frame; 62. a conveying motor; 63. a delivery shaft; 64. a driving pulley; 65. a drive shaft; 66. a driven shaft; 67. a driven pulley; 68. conveying a synchronous belt; 7. a right arc frame assembly; 70. a right arc frame; 71. a transfer motor; 72. a transfer shaft; 73. a driving gear; 74. a driving conveying roller; 75. a driven transfer roller; 76. a driven gear; 77. conveying a synchronous belt; 78. a position yielding frame; 79. a hoisting motor; 700. rotating the rod; 701. a wire rope; 702. a conveying roller; 703. tensioning the belt pulley; 704. rope winding; 8. a middle frame assembly; 80. a middle frame; 81. a transfer motor; 82. a transfer shaft; 83. a drive pulley; 84. a drive roll shaft; 85. a driven roller shaft; 86. a driven pulley; 87. a conveyor belt; 9. a propping component; 90. tightly abutting against the motor; 91. a tightening roller; 92. tightly abutting against the air cylinder; 93. a support block; 94. a through hole; 10. a space.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example (b):

referring to fig. 1 and 2, an annular conveying device of a sponge truncation machine comprises a frame 1, a workbench 2 and a cutter 3 which are respectively arranged on the frame 1, a plurality of transmission rollers 20 are uniformly distributed on the workbench 2, a transmission wheel 21 is arranged on the side wall of each transmission roller 20, the transmission wheels 21 are connected through a conveying belt 22, a transmission motor 23 connected with one transmission roller 20 is arranged on the workbench 2, the cutter 3 is an annular cutter, two rotating wheels 30 used for connecting the cutter 3 and a driving motor two 31 used for driving one rotating wheel 30 to rotate are further arranged on the frame 1, and the annular conveying device further comprises a moving assembly 4 which is respectively arranged on the frame 1 and used for conveying sponge to be sliced to the workbench 2 and a conveying mechanism 5 used for circularly conveying the sponge to be sliced.

Referring to fig. 2, conveying mechanism 5 includes left arc frame subassembly 6, right arc frame subassembly 7 and intermediate frame subassembly 8, and left arc frame subassembly 6 and right arc frame subassembly 7 are located the both sides of workstation 2 respectively, and intermediate frame subassembly 8 is located between left arc frame subassembly 6 and the right arc frame subassembly 7, and intermediate frame subassembly 8 is located the top of workstation 2, is equipped with the space 10 that supplies to treat that the piece sponge gets into workstation 2 between right arc frame subassembly 7 and the workstation 2.

Referring to fig. 1 and 2, a plurality of abutting assemblies 9 for extruding and conveying sponge to be sliced are arranged on a machine frame 1, and the abutting assemblies 9 are positioned on one sides of a left arc-shaped frame assembly 6, a right arc-shaped frame assembly 7 and a middle frame assembly 8, which are close to a workbench 2; when the sponge is sliced in the cutting belt, the sponge to be sliced is transferred by the aid of the moving assembly 4, the sponge to be sliced penetrates through the space 10 and is moved to the workbench 2, the two rotating wheels 30 are driven to rotate by the second driving motor 31, the cutter 3 is driven to rotate, the sponge to be sliced is cut, the sponge to be sliced is rolled, the unsliced sponge is continuously transferred to the left arc-shaped frame assembly 6 forwards, the sponge is clamped and conveyed to the middle frame assembly 8 by the left arc-shaped frame assembly 6 and the abutting assembly 9, the middle frame assembly 8 and the abutting assembly 9 clamp and convey the sponge to the right arc-shaped frame assembly 7, the sponge is clamped and conveyed to the workbench 2 by the right arc-shaped frame assembly 7 and the abutting assembly 9, the cutter 3 can slice the sponge for the second time, accordingly, the sponge can be cut in a reciprocating mode in a circulating mode, the work for reducing the burden of workers for manually.

Referring to fig. 3, the moving assembly 4 includes a moving frame 40 horizontally disposed on the machine frame 1, a moving motor 41 is disposed on the moving frame 40, a moving shaft 42 is coaxially connected to a motor shaft of the moving motor 41, a driving wheel 43 is coaxially connected to the moving shaft 42, a driving roller 44 is coaxially connected to one end of the moving shaft 42 away from the driving wheel 43, a plurality of driven rollers 45 are rotatably disposed on the moving frame 40, the plurality of driven rollers 45 are uniformly distributed along the length direction of the moving frame 40, the driven rollers 45 and the driving roller 44 are disposed along the width direction of the sponge, driven rollers 46 are disposed on the side walls of the driven rollers 45, and the driving wheel 43 and the driven rollers; when the sponge to be sliced needs to be cut, the sponge is placed on the moving frame 40, and the moving motor 41 drives the moving shaft 42, the driving wheel 43, the driving roller 44, the driven wheel 46, the driven roller 45 and the belt 47 to rotate in sequence, so that the sponge can be smoothly conveyed and moved.

Referring to fig. 4, left side arc frame subassembly 6 is including setting up the left arc frame 61 in workstation 2 one side, be equipped with conveying motor 62 on the lateral wall of left arc frame 61, conveying motor 62's motor shaft coaxial coupling has transport axle 63, transport axle 63 coaxial coupling has driving pulley 64, the one end of carrying axle 63 to keep away from driving pulley 64 is equipped with driving shaft 65, be equipped with a plurality of driven shaft 66 on the arc frame 61 of a left side, a plurality of driven shaft 66 is along the profile direction equipartition of left arc frame 61, driven shaft 66 and driving shaft 65 set up along the width direction of sponge, the one end that driven shaft 66 is close to driving pulley 64 is equipped with driven pulley 67, driving pulley 64 is connected through carrying hold-in range 68 with driven pulley 67, be equipped with a plurality of take.

Referring to fig. 5, the intermediate frame assembly 8 includes an intermediate frame 80 horizontally disposed on the machine frame 1 (see fig. 4), the intermediate frame 80 is disposed along a length direction of the workbench 2 (see fig. 4), a transfer motor 81 is disposed on a side wall of the intermediate frame 80, a motor shaft of the transfer motor 81 is coaxially connected with a transfer shaft 82, a drive pulley 83 is disposed on a side wall of the transfer shaft 82, a drive roller shaft 84 is coaxially connected to one end of the transfer shaft 82 away from the drive pulley 83, a plurality of driven roller shafts 85 are disposed on a side wall of the intermediate frame 80, the plurality of driven roller shafts 85 are uniformly distributed along the length direction of the intermediate frame 80, the drive roller shaft 84 and the driven roller shafts 85 are disposed along a width direction of the sponge, a driven pulley 86 is disposed on a side wall of the driven roller shaft 85, and the drive pulley 83 and.

Referring to fig. 6, right arc frame assembly 7 is including setting up right arc frame 70 in frame 1 (refer to fig. 4), right arc frame 70 and left arc frame 61 (refer to fig. 4) set up relatively, be equipped with conveying motor 71 on the lateral wall of right arc frame 70, coaxial coupling has conveying shaft 72 on conveying motor 71's the motor shaft lateral wall, coaxial coupling has driving gear 73 on conveying shaft 72's the lateral wall, the one end that driving gear 73 was kept away from to conveying shaft 72 is equipped with initiative transfer roller 74, be equipped with a plurality of driven transfer roller 75 on right arc frame 70, the profile direction equipartition of right arc frame 70 is followed to a plurality of transfer roller, initiative transfer roller 74 and driven transfer roller 75 set up along the width direction of sponge, driven transfer roller 75 is close to the one end of driving gear 73 is equipped with driven gear 76, driving gear 73 and driven gear 76 pass through conveying hold-in range 77 and connect.

Referring to fig. 7, the tightening assembly 9 includes a tightening motor 90, a tightening roller 91 coaxially connected to a motor shaft of the tightening motor 90, and two tightening cylinders 92 for pushing the tightening motor 90 and the tightening roller 91 to move toward one side of the sponge, the tightening cylinder 92 is disposed on the frame 1, a piston rod of the tightening cylinder 92 extends toward one side away from the worktable 2, a support block 93 is disposed on an end wall of the piston rod of the tightening cylinder 92, two ends of the tightening roller 91 respectively penetrate through the two support blocks 93, a through hole 94 for the tightening roller 91 to penetrate through is disposed on a side wall of the support block 93, the tightening roller 91 is rotatably connected to the support block 93, and the tightening roller 91 is disposed along a width direction of the worktable 2.

Referring to fig. 6 and 7, the distance between the abutment roller 91 and the corresponding driving shaft 65, driven shaft 66, driving roller shaft 84, driven roller shaft 85, driving conveying roller 74, and driven conveying roller 75 is smaller than the thickness of the sponge.

Referring to fig. 4, after the cutting knife 3 cuts the sponge, the conveying motor 62 sequentially drives the conveying shaft 63, the driving pulley 64, the driving shaft 65, the conveying synchronous belt 68, the driven pulley 67 and the driven shaft 66 to rotate, the tightening cylinder 92 pushes the tightening motor 90 (refer to fig. 7) and the tightening roller 91 to move according to the thickness of the sponge, the tightening motor 90 drives the tightening roller 91 to rotate, and the tightening roller 91, the driving shaft 65 and the driven roller 45 clamp the sponge and convey the sponge forward to the middle frame 80;

referring to fig. 5, after the sponge is moved to the middle frame 80, the transfer motor 81 sequentially drives the transfer shaft 42, the driving pulley 83, the driving roller shaft 84, the driven pulley 86, the driven roller shaft 85 and the conveying belt 87 to rotate, meanwhile, the tightening motor 90 (see fig. 7) drives the tightening roller 91 (see fig. 7) to rotate, and the tightening roller 91, the driving roller shaft 84 and the driven roller shaft 85 clamp the sponge to be conveyed to the right arc frame 70 (see fig. 6) side;

referring to fig. 6 and 7, when the sponge is conveyed to the right arc frame 70, the conveying motor 71 drives the conveying shaft 72, the driving gear 73, the driving conveying roller 74, the driven conveying roller 75, the driven gear 76 and the conveying synchronous belt 77 to rotate in sequence, and the abutting motor 90 drives the abutting roller 91) to rotate, so that the abutting roller 91, the driven conveying roller 75 and the driving conveying roller 74 clamp the sponge and output the sponge to one side of the workbench 2, thereby smoothly and circularly conveying the sponge, replacing the working mode of manually conveying the sponge by workers, reducing the workload of the workers and improving the working efficiency.

Referring to fig. 8, when the thickness of the sponge is greater than the height of the space 10, a relief frame 78 is rotatably disposed on one side of the right arc frame 70 away from the middle frame 80, a plurality of conveying rollers 702 are uniformly and rotatably disposed on the relief frame 78 along the contour direction of the relief frame, a hoisting motor 79 is disposed on the frame 1, a rotating rod 700 is disposed on the side wall of a motor shaft of the hoisting motor 79, the rotating rod 700 is disposed along the width direction of the sponge, the hoisting motor 79 is located above the workbench 2, a steel wire rope 701 is wound on the side wall of the rotating rod 700, one end of the steel wire rope 701 away from the rotating rod 700 is connected with the relief frame 78, the hoisting motor 79, the rotating rod 700 and the steel wire rope 701 form a rope winding group 704, and two rope winding groups 704 are disposed; when the sponge is conveyed to one side of the workbench 2, the hoisting motor 79 drives the rotating rod 700 to rotate, the steel wire rope 701 is wound up, the position frame 78 is driven to rotate, the height of the space 10 is increased, and the sponge can be smoothly conveyed to one side of the workbench 2.

Referring to fig. 8, when the sponge is transferred to the right arc frame 70, the hoisting motor 79 drives the rotating rod 700 to rotate, the steel wire rope 701 is unwound, the position frame 78 is put down, and the sponge conveniently and smoothly enters the workbench 2 to be cut circularly, so that the sponge is suitable for the sponges with different thicknesses.

Referring to fig. 8, since the movable rack 40 is placed on the ground and occupies a large area, the movable rack 40 is disposed above the workbench 2, and is preferentially located on the same horizontal plane as the middle rack 80, the inclined rack 48 is rotatably disposed on one side of the movable rack 40 close to the workbench 2, the inclined rack 48 extends to one side of the workbench 2, the frame 1 is rotatably disposed with the push cylinder 49, the push cylinder 49 is located above the workbench 2, the push cylinder 49 is disposed along the height direction of the frame 1, and the piston rod of the push cylinder 49 is rotatably connected to one side of the inclined rack 48 away from the movable rack 40.

Referring to fig. 8, a receiving frame 400 for receiving sponge is rotatably arranged on one side of the workbench 2 close to the moving frame 40, a plurality of driving rollers 404 are rotatably arranged on the receiving frame 48 and the tilting frame 400, the receiving frame 400 extends towards one side of the tilting frame 48, a frame lifting motor 401 is arranged on the rack 1, the frame lifting motor 401 is positioned on one side of the moving frame 40, a rotating shaft 402 is arranged on a motor shaft of the frame lifting motor 401, a rope 403 is wound on the side wall of the rotating shaft 402, one end of the rope 403 far away from the rotating shaft 402 is connected with the receiving frame 400, the frame lifting motor 401, the rotating shaft 402 and the rope 403 form a lifting group 405, and two lifting groups 405 are arranged on the rack 1 and are respectively positioned on two sides of the; when the movable frame 40 conveys the sponge to one side of the workbench 2, the pushing cylinder 49 pushes the inclined frame 48 to rotate, the frame lifting motor 401 drives the rotating shaft 402 to rotate, the rotating shaft 402 rolls up the rope 403, so that the bearing frame 400 is lifted, the sponge can smoothly move to the workbench 2 along the inclined frame 48 and the bearing frame 400, the movable frame 40 is high, the floor area occupied by the equipment is reduced, and the utilization rate of the space 10 is improved.

The implementation principle of the above embodiment is as follows: the sponge to be sliced is transferred by the aid of the moving assembly 4, the sponge to be sliced is moved to the workbench 2 after penetrating through the space 10, the sponge to be sliced is cut by the cutter 3, the sponge which is not sliced is continuously transferred to the left arc-shaped frame assembly 6 forwards, the sponge is clamped and conveyed to the middle frame assembly 8 by the left arc-shaped frame assembly 6 and the abutting assembly 9, the sponge is clamped and conveyed to the right arc-shaped frame assembly 7 by the middle frame assembly 8 and the abutting assembly 9, the sponge is clamped and conveyed to the workbench 2 by the right arc-shaped frame assembly 7 and the abutting assembly 9, and the sponge is sliced again by the cutter 3.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (8)

1. The utility model provides an annular conveyor of sponge truncation machine, includes frame (1), sets up respectively workstation (2) and cutter (3) on frame (1), its characterized in that: the device also comprises a moving assembly (4) and a conveying mechanism (5), wherein the moving assembly (4) and the conveying mechanism are respectively arranged on the rack (1) and used for conveying the sponge to be sliced to the workbench (2);

the conveying mechanism (5) comprises a left arc-shaped frame assembly (6) and a right arc-shaped frame assembly (7) which are respectively arranged at two sides of the workbench (2) and a middle frame assembly (8) arranged between the left arc-shaped frame assembly (6) and the right arc-shaped frame assembly (7), a space (10) for the sponge to be sliced to enter the workbench (2) is arranged between the right arc-shaped frame assembly (7) and the workbench (2), and the middle frame assembly (8) is arranged above the workbench (2);

be equipped with a plurality of on frame (1) and be used for the extrusion to carry to wait to block support tight subassembly (9) of piece sponge, support tight subassembly (9) and be located left side arc frame subassembly (6), right side arc frame subassembly (7) and middle frame subassembly (8) are close to one side of workstation (2).

2. The ring-shaped conveying device of the sponge truncation machine as claimed in claim 1, wherein: remove subassembly (4) including setting up removal frame (40), the setting in frame (1) remove moving motor (41) on the frame (40), with the removal axle (42) of the motor shaft of moving motor (41), set up and be in drive wheel (43) on the removal axle (42) lateral wall and drive roll (44) of being connected with removal axle (42), it is equipped with a plurality of driven voller (45) to rotate on removing frame (40), be equipped with on the lateral wall of driven voller (45) from driving wheel (46), drive wheel (43) and from driving wheel (46) are connected through belt (47).

3. The ring-shaped conveying device of the sponge truncation machine as claimed in claim 1, wherein: left side arc frame subassembly (6) are including setting up left arc frame (61), the setting of workstation (2) one side are in conveying motor (62) on left side arc frame (61), with conveying shaft (63) of the motor shaft connection of conveying motor (62), setting are in driving pulley (64) and setting on the lateral wall of conveying shaft (63) are in driving shaft (65) on conveying shaft (63) lateral wall, be equipped with a plurality of driven shaft (66) on left side arc frame (61), a plurality of driven shaft (66) are followed contour direction equipartition of left side arc frame (61), be equipped with driven pulley (67) on the lateral wall of driven shaft (66), driving pulley (64) are connected through conveying hold-in range (68) with driven pulley (67).

4. The ring-shaped conveying device of the sponge truncation machine as claimed in claim 2, wherein: middle frame subassembly (8) are including setting up middle frame (80) on frame (1), setting are in transfer motor (81), setting on middle frame (80) are in shift axle (82), setting on the motor shaft lateral wall of moving motor (41) are in drive pulley (83) and setting on the shift axle (82) lateral wall are in drive roller axle (84) on the shift axle (82) lateral wall, be equipped with a plurality of driven roller axle (85) on frame (1), be equipped with driven pulley (86) on the lateral wall of driven roller axle (85), drive pulley (83) and driven pulley (86) are connected through conveyor belt (87).

5. The ring-shaped conveying device of the sponge truncation machine as claimed in claim 4, wherein: right side arc frame subassembly (7) is including setting up right arc frame (70), the setting in frame (1) is in conveying motor (71), setting on right side arc frame (70) are in conveying axle (72), the setting on the motor shaft lateral wall of conveying motor (71) are in driving gear (73) and setting on the conveying axle (72) lateral wall are in initiative transfer roller (74) on driving gear (73) lateral wall, be equipped with a plurality of driven transfer roller (75), a plurality of on right side arc frame (70) driven transfer roller (75) are followed the profile direction equipartition of right side arc frame (70), be equipped with driven gear (76) on the lateral wall of driven transfer roller (75), driving gear (73) and driven gear (76) are connected through conveying hold-in range (77).

6. The ring-shaped conveying device of the sponge truncation machine as claimed in claim 1, wherein: the tight supporting assembly (9) comprises a tight supporting motor (90), a tight supporting roller (91) and two tight supporting cylinders (92) used for pushing the tight supporting motor (90) and the tight supporting roller (91) to move towards one side of sponge, the tight supporting cylinders (92) are arranged on the rack (1), supporting blocks (93) are arranged on end walls of piston rods of the tight supporting cylinders (92), two ends of the tight supporting roller (91) penetrate through the two supporting blocks (93) respectively, the tight supporting roller (91) is rotatably connected with the supporting blocks (93), the tight supporting roller (91) is arranged along the width direction of the workbench (2), and the tight supporting motor (90) is coaxially connected with the tight supporting roller (91).

7. The ring-shaped conveying device of the sponge truncation machine as claimed in claim 5, wherein: keep away from right side arc frame (70) one side of middle frame (80) is rotated and is equipped with lets position frame (78), let on position frame (78) and rotate along its profile direction equipartition and be equipped with a plurality of conveying roller (702), be equipped with hoist motor (79) on frame (1), be equipped with dwang (700) on the motor shaft lateral wall of hoist motor (79), hoist motor (79) are located the top of workstation (2), around being equipped with wire rope (701) on the lateral wall of dwang (700), wire rope (701) keep away from the one end of dwang (700) and let position frame (78) be connected.

8. The ring-shaped conveying device of the sponge truncation machine as claimed in claim 2, wherein: the movable frame (40) is located above the workbench (2), an inclined frame (48) is rotatably arranged on one side, close to the workbench (2), of the movable frame (40), a pushing cylinder (49) is rotatably arranged on the rack (1), the pushing cylinder (49) is arranged along the height direction of the rack (1), and a piston rod of the pushing cylinder (49) is rotatably connected with one side, far away from the movable frame (40), of the inclined frame (48);

workstation (2) are close to one side of removing frame (40) is rotated and is equipped with the frame (400) of accepting that is used for accepting the sponge, it is equipped with a plurality of transfer roller (404) to accept to rotate on frame (400) and the sloping frame (48), be equipped with on frame (1) and rise a motor (401), it is equipped with axis of rotation (402) on the motor shaft of frame motor (401) to rise, around being equipped with rope (403) on the lateral wall of axis of rotation (402), rope (403) are kept away from the one end of axis of rotation (402) with accept frame (400) and connect.

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